Q3200605 (Q3200605): Difference between revisions

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(‎Created claim: summary (P836): THE LHC DATA COLLECTION PERIOD BETWEEN 2009 AND 2012 WAS A SUCCESS; EXPERIMENTS MADE EXCEPTIONAL MEASUREMENTS, SUCH AS THE RECENT DISCOVERY OF A HIGGS BOSON. TO FURTHER INVESTIGATE THE ENERGETIC BORDER, THE LHC HAS BEEN RECENTLY IMPROVED TO INCREASE THE ENERGY OF THE CENTER OF MASS FROM 8 TEV TO 14 TEV. LATER, IN 2022, INSTANTANEOUS LUMINOSITY WILL INCREASE BY A FACTOR TEN (HL-LHC). With the end of FRESENT TO THE BIGHEST luminosities, ATLAS will...)
Property / summary
 
THE LHC DATA COLLECTION PERIOD BETWEEN 2009 AND 2012 WAS A SUCCESS; EXPERIMENTS MADE EXCEPTIONAL MEASUREMENTS, SUCH AS THE RECENT DISCOVERY OF A HIGGS BOSON. TO FURTHER INVESTIGATE THE ENERGETIC BORDER, THE LHC HAS BEEN RECENTLY IMPROVED TO INCREASE THE ENERGY OF THE CENTER OF MASS FROM 8 TEV TO 14 TEV. LATER, IN 2022, INSTANTANEOUS LUMINOSITY WILL INCREASE BY A FACTOR TEN (HL-LHC). With the end of FRESENT TO THE BIGHEST luminosities, ATLAS will also improve YOUR INTERNAL DETECTOR (ID) by replacing the current ID with an INTEGRATED SILICY DETECTOR (LAMING ITK)._x000D_ _x000D_ The ATLAS ID NUCLEO IS THE pixel detector, that desempresses a key pad in many measures, and which sensibly improves the resolution of the immaculate parametro, and therefore, the reconstruction of vertices and B-tagging. ESPECIALLY IMPORTANT IS THE INNERMOST LAYER, WHICH HAS TO WITHSTAND THE HIGHEST DOSES OF RADIATION. DURING THE RECENT LHC UPGRADE PERIOD, AND TO FURTHER IMPROVE THE PERFORMANCE OF THE SILICON SYSTEM, ATLAS HAS INTRODUCED AN ADDITIONAL PIXEL LAYER (CALLED B-LAYER OR IBL) INTO THE PIXEL DETECTOR. THE IBL, MOUNTED DIRECTLY ON THE NEW BEAM TUBE, IS DESIGNED TO WITHSTAND A NIEL DOSE OF 5E15NEQ/CM2. AFTER AN EXTENSIVE QUALIFICATION PERIOD (2011-2013) TWO TECHNOLOGIES WERE SELECTED FOR THE IBL: FLATTER SENSORS AND 3D SENSORS. MORE THAN HALF OF THE 3D SENSORS THAT ARE NOW BEING OPERATED IN THE IBL WERE PRODUCED AT THE IMB-CNM. _x000D_ _x000D_ as a CONSEQUENCY OF THE IBL 3D SENSORS EXIT, A NEW EXPERIMENT OF ATLAS DESIGNED TO STUDY THE FISIC difractive (ATLAS FORWARD protons or AFP) has selected 3D sensors for the tracing system. THE CURRENT DESIGN OF THE AFP PROVIDES SILICON SENSORS LOCATED 210 M FROM THE POINT OF INTERACTION AND 2-3 MM FROM THE PROTON BEAM. THE IFAE GROUP HAS LED THE QUALIFICATION OF CNM’S 3D SENSORS FOR AFP, AND HAS PLAYED A LEADING ROLE IN THE WORK THAT LED TO THE APPROVAL OF AFP FOR THE ATLAS COLLABORATION IN JUNE 2015. The AFP TRACES SYSTEM IS NOW INSTITUCTIONAL RESPONSIBILITY OF IFAE._x000D_ _x000D_ 3D TECHNOLOGY AND MUST BE MORE ADECTED FOR THE INTERNAL CAPS OF the pixel detector, without embarrassment, given the RADIATION DOSIS WITHOUT PRECEDENTS that are expected for HL-LHC, new improvements will be needed, as well as the redirection of the material and the pixel size. THE ITK SCHEDULE FORESEES FINALISING THE TECHNICAL DESIGN REPORT (TDR) IN 2017. FOR THIS REASON IT IS CRITICAL TO QUALIFY 3D TECHNOLOGY IN THE NEXT FEW YEARS. The IMB-CNM and IFAE are designed to manufacture, assemble and characterise 3D DISPOSITIVES to consolide this technology as an opportunity for the internal layers of the ITK Detector._x000D_ _x000D_ THE PROJECT had two connected OBJECTIVES. FIRST, MANUFACTURE THE MODULES FOR THE AFP TRACE DETECTOR. AND SECONDLY, TO DEVELOP NEW PIXEL TECHNOLOGIES THAT WILL ENSURE A LEADING ROLE FOR IFAE AND IMB-CNM IN FUTURE UPDATES OF ATLAS FOR THE HL-LHC PERIOD. (English)
Property / summary: THE LHC DATA COLLECTION PERIOD BETWEEN 2009 AND 2012 WAS A SUCCESS; EXPERIMENTS MADE EXCEPTIONAL MEASUREMENTS, SUCH AS THE RECENT DISCOVERY OF A HIGGS BOSON. TO FURTHER INVESTIGATE THE ENERGETIC BORDER, THE LHC HAS BEEN RECENTLY IMPROVED TO INCREASE THE ENERGY OF THE CENTER OF MASS FROM 8 TEV TO 14 TEV. LATER, IN 2022, INSTANTANEOUS LUMINOSITY WILL INCREASE BY A FACTOR TEN (HL-LHC). With the end of FRESENT TO THE BIGHEST luminosities, ATLAS will also improve YOUR INTERNAL DETECTOR (ID) by replacing the current ID with an INTEGRATED SILICY DETECTOR (LAMING ITK)._x000D_ _x000D_ The ATLAS ID NUCLEO IS THE pixel detector, that desempresses a key pad in many measures, and which sensibly improves the resolution of the immaculate parametro, and therefore, the reconstruction of vertices and B-tagging. ESPECIALLY IMPORTANT IS THE INNERMOST LAYER, WHICH HAS TO WITHSTAND THE HIGHEST DOSES OF RADIATION. DURING THE RECENT LHC UPGRADE PERIOD, AND TO FURTHER IMPROVE THE PERFORMANCE OF THE SILICON SYSTEM, ATLAS HAS INTRODUCED AN ADDITIONAL PIXEL LAYER (CALLED B-LAYER OR IBL) INTO THE PIXEL DETECTOR. THE IBL, MOUNTED DIRECTLY ON THE NEW BEAM TUBE, IS DESIGNED TO WITHSTAND A NIEL DOSE OF 5E15NEQ/CM2. AFTER AN EXTENSIVE QUALIFICATION PERIOD (2011-2013) TWO TECHNOLOGIES WERE SELECTED FOR THE IBL: FLATTER SENSORS AND 3D SENSORS. MORE THAN HALF OF THE 3D SENSORS THAT ARE NOW BEING OPERATED IN THE IBL WERE PRODUCED AT THE IMB-CNM. _x000D_ _x000D_ as a CONSEQUENCY OF THE IBL 3D SENSORS EXIT, A NEW EXPERIMENT OF ATLAS DESIGNED TO STUDY THE FISIC difractive (ATLAS FORWARD protons or AFP) has selected 3D sensors for the tracing system. THE CURRENT DESIGN OF THE AFP PROVIDES SILICON SENSORS LOCATED 210 M FROM THE POINT OF INTERACTION AND 2-3 MM FROM THE PROTON BEAM. THE IFAE GROUP HAS LED THE QUALIFICATION OF CNM’S 3D SENSORS FOR AFP, AND HAS PLAYED A LEADING ROLE IN THE WORK THAT LED TO THE APPROVAL OF AFP FOR THE ATLAS COLLABORATION IN JUNE 2015. The AFP TRACES SYSTEM IS NOW INSTITUCTIONAL RESPONSIBILITY OF IFAE._x000D_ _x000D_ 3D TECHNOLOGY AND MUST BE MORE ADECTED FOR THE INTERNAL CAPS OF the pixel detector, without embarrassment, given the RADIATION DOSIS WITHOUT PRECEDENTS that are expected for HL-LHC, new improvements will be needed, as well as the redirection of the material and the pixel size. THE ITK SCHEDULE FORESEES FINALISING THE TECHNICAL DESIGN REPORT (TDR) IN 2017. FOR THIS REASON IT IS CRITICAL TO QUALIFY 3D TECHNOLOGY IN THE NEXT FEW YEARS. The IMB-CNM and IFAE are designed to manufacture, assemble and characterise 3D DISPOSITIVES to consolide this technology as an opportunity for the internal layers of the ITK Detector._x000D_ _x000D_ THE PROJECT had two connected OBJECTIVES. FIRST, MANUFACTURE THE MODULES FOR THE AFP TRACE DETECTOR. AND SECONDLY, TO DEVELOP NEW PIXEL TECHNOLOGIES THAT WILL ENSURE A LEADING ROLE FOR IFAE AND IMB-CNM IN FUTURE UPDATES OF ATLAS FOR THE HL-LHC PERIOD. (English) / rank
 
Normal rank
Property / summary: THE LHC DATA COLLECTION PERIOD BETWEEN 2009 AND 2012 WAS A SUCCESS; EXPERIMENTS MADE EXCEPTIONAL MEASUREMENTS, SUCH AS THE RECENT DISCOVERY OF A HIGGS BOSON. TO FURTHER INVESTIGATE THE ENERGETIC BORDER, THE LHC HAS BEEN RECENTLY IMPROVED TO INCREASE THE ENERGY OF THE CENTER OF MASS FROM 8 TEV TO 14 TEV. LATER, IN 2022, INSTANTANEOUS LUMINOSITY WILL INCREASE BY A FACTOR TEN (HL-LHC). With the end of FRESENT TO THE BIGHEST luminosities, ATLAS will also improve YOUR INTERNAL DETECTOR (ID) by replacing the current ID with an INTEGRATED SILICY DETECTOR (LAMING ITK)._x000D_ _x000D_ The ATLAS ID NUCLEO IS THE pixel detector, that desempresses a key pad in many measures, and which sensibly improves the resolution of the immaculate parametro, and therefore, the reconstruction of vertices and B-tagging. ESPECIALLY IMPORTANT IS THE INNERMOST LAYER, WHICH HAS TO WITHSTAND THE HIGHEST DOSES OF RADIATION. DURING THE RECENT LHC UPGRADE PERIOD, AND TO FURTHER IMPROVE THE PERFORMANCE OF THE SILICON SYSTEM, ATLAS HAS INTRODUCED AN ADDITIONAL PIXEL LAYER (CALLED B-LAYER OR IBL) INTO THE PIXEL DETECTOR. THE IBL, MOUNTED DIRECTLY ON THE NEW BEAM TUBE, IS DESIGNED TO WITHSTAND A NIEL DOSE OF 5E15NEQ/CM2. AFTER AN EXTENSIVE QUALIFICATION PERIOD (2011-2013) TWO TECHNOLOGIES WERE SELECTED FOR THE IBL: FLATTER SENSORS AND 3D SENSORS. MORE THAN HALF OF THE 3D SENSORS THAT ARE NOW BEING OPERATED IN THE IBL WERE PRODUCED AT THE IMB-CNM. _x000D_ _x000D_ as a CONSEQUENCY OF THE IBL 3D SENSORS EXIT, A NEW EXPERIMENT OF ATLAS DESIGNED TO STUDY THE FISIC difractive (ATLAS FORWARD protons or AFP) has selected 3D sensors for the tracing system. THE CURRENT DESIGN OF THE AFP PROVIDES SILICON SENSORS LOCATED 210 M FROM THE POINT OF INTERACTION AND 2-3 MM FROM THE PROTON BEAM. THE IFAE GROUP HAS LED THE QUALIFICATION OF CNM’S 3D SENSORS FOR AFP, AND HAS PLAYED A LEADING ROLE IN THE WORK THAT LED TO THE APPROVAL OF AFP FOR THE ATLAS COLLABORATION IN JUNE 2015. The AFP TRACES SYSTEM IS NOW INSTITUCTIONAL RESPONSIBILITY OF IFAE._x000D_ _x000D_ 3D TECHNOLOGY AND MUST BE MORE ADECTED FOR THE INTERNAL CAPS OF the pixel detector, without embarrassment, given the RADIATION DOSIS WITHOUT PRECEDENTS that are expected for HL-LHC, new improvements will be needed, as well as the redirection of the material and the pixel size. THE ITK SCHEDULE FORESEES FINALISING THE TECHNICAL DESIGN REPORT (TDR) IN 2017. FOR THIS REASON IT IS CRITICAL TO QUALIFY 3D TECHNOLOGY IN THE NEXT FEW YEARS. The IMB-CNM and IFAE are designed to manufacture, assemble and characterise 3D DISPOSITIVES to consolide this technology as an opportunity for the internal layers of the ITK Detector._x000D_ _x000D_ THE PROJECT had two connected OBJECTIVES. FIRST, MANUFACTURE THE MODULES FOR THE AFP TRACE DETECTOR. AND SECONDLY, TO DEVELOP NEW PIXEL TECHNOLOGIES THAT WILL ENSURE A LEADING ROLE FOR IFAE AND IMB-CNM IN FUTURE UPDATES OF ATLAS FOR THE HL-LHC PERIOD. (English) / qualifier
 
point in time: 13 October 2021
Timestamp+2021-10-13T00:00:00Z
Timezone+00:00
CalendarGregorian
Precision1 day
Before0
After0

Revision as of 01:25, 13 October 2021

Project Q3200605 in Spain
Language Label Description Also known as
English
No label defined
Project Q3200605 in Spain

    Statements

    country
    Spain
    0 references
    EU contribution
    272,250.0 Euro
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    budget
    544,500.0 Euro
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    co-financing rate
    50.0 percent
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    start time
    1 January 2016
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    end time
    31 December 2019
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    beneficiary name (string)
    INSTITUTO DE FISICA DE ALTAS ENERGIAS
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    coordinate location

    42°13'24.28"N, 1°53'31.70"E
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    postal code
    08903
    0 references
    summary
    EL PERIODO DE TOMA DE DATOS DEL LHC ENTRE 2009 Y 2012 FUE UN EXITO; LOS EXPERIMENTOS HICIERON MEDICIONES EXCEPCIONALES, COMO EL RECIENTE DESCUBRIMIENTO DE UN BOSON DE HIGGS. PARA INVESTIGAR AUN MAS LA FRONTERA ENERGETICA, EL LHC HA SIDO RECIENTEMENTE MEJORADO PARA AUMENTAR LA ENERGIA DEL CENTRO DE MASA DE 8 TEV A 14 TEV. MAS ADELANTE, EN EL 2022, LA LUMINOSIDAD INSTANTANEA SE INCREMENTARA EN UN FACTOR DIEZ (HL-LHC). CON EL FIN DE HACER FRENTE A LAS LUMINOSIDADES MAS ALTAS, ATLAS TAMBIEN MEJORARA SU DETECTOR INTERNO (ID) SUSTITUYENDO EL ID ACTUAL CON UN DETECTOR INTEGRAMENTE DE SILICIO (LLAMADO ITK)._x000D_ _x000D_ EL NUCLEO DEL ID DE ATLAS ES EL DETECTOR DE PIXELES, QUE DESEMPEÑA UN PAPEL CLAVE EN MUCHAS MEDICIONES YA QUE MEJORA SIGNIFICATIVAMENTE LA RESOLUCION DEL PARAMETRO DE IMPACTO, Y POR LO TANTO, LA RECONSTRUCCION VERTICES Y EL B-TAGGING. ESPECIALMENTE IMPORTANTE ES LA CAPA MAS INTERNA, QUE TIENE QUE SOPORTAR LAS DOSIS MAS ALTAS DE RADIACION. DURANTE EL RECIENTE PERIODO DE MEJORAS AL LHC, Y PARA MEJORAR AUN MAS EL RENDIMIENTO DEL SISTEMA DE SILICIO, ATLAS HA INTRODUCIDO UNA CAPA DE PIXELES ADICIONAL (LLAMADA INSERTABLE B-LAYER O IBL) EN EL INTERIOR DEL DETECTOR DE PIXELES. EL IBL, MONTADO DIRECTAMENTE SOBRE EL NUEVO TUBO DEL HAZ, ESTA DISEÑADO PARA SOPORTAR UNA DOSIS NIEL DE 5E15NEQ/CM2. DESPUES DE UN EXTENSO PERIODO DE CUALIFICACION (2011-2013) DOS TECNOLOGIAS FUERON SELECCIONADAS PARA EL IBL: LOS SENSORES PLANARES Y LOS 3D. MAS DE LA MITAD DE LOS SENSORES 3D QUE AHORA ESTAN SIENDO OPERADOS EN EL IBL FUERON PRODUCIDOS EN EL IMB-CNM. _x000D_ _x000D_ COMO CONSECUENCIA DEL EXITO DE LOS SENSORES 3D DEL IBL, UN NUEVO EXPERIMENTO DE ATLAS DISEÑADO PARA ESTUDIAR LA FISICA DIFRACTIVA (ATLAS FORWARD PROTONS O AFP) HA SELECCIONADO SENSORES 3D PARA EL SISTEMA DE RECONSTRUCCION DE TRAZAS. EL DISEÑO ACTUAL DEL AFP PREVE SENSORES DE SILICIO UBICADOS A 210 M DEL PUNTO DE INTERACCION Y A 2-3 MM DEL HAZ DE PROTONES. EL GRUPO DEL IFAE HA LIDERADO LA CUALIFICACION DE LOS SENSORES 3D DEL CNM PARA AFP, Y HA JUGADO UN PAPEL PRINCIPAL EN EL TRABAJO QUE LLEVO A LA APROBACION DE AFP POR LA COLABORACION ATLAS EN JUNIO DEL 2015. EL SISTEMA DE TRAZAS DE AFP ES AHORA LA RESPONSABILIDAD INSTITUCIONAL DEL IFAE._x000D_ _x000D_ LA TECNOLOGIA 3D YA HA DEMOSTRADO SER MAS ADECUADA PARA LAS CAPAS MAS INTERNAS DEL DETECTOR DE PIXELES, SIN EMBARGO, DADAS LAS DOSIS DE RADIACION SIN PRECEDENTES QUE SE ESPERA PARA EL HL-LHC, SE NECESITARAN NUEVAS MEJORAS, COMO LA REDUCCION DEL MATERIAL Y DEL TAMAÑO DE LOS PIXELES. EL CRONOGRAMA DEL ITK PREVE FINALIZAR EL REPORTE TECNICO DE DISEÑO (TDR) EN EL 2017. POR ESTA RAZON ES CRITICO CUALIFICAR LA TECNOLOGIA 3D EN LOS PROXIMOS AÑOS. EL IMB-CNM E IFAE SE PROPONEN FABRICAR, ENSAMBLAR Y CARACTERIZAR DISPOSITIVOS 3D PARA CONSOLIDAR ESTA TECNOLOGIA COMO UNA OPCION PARA LAS CAPAS INTERNAS DEL DETECTOR ITK._x000D_ _x000D_ EL PROYECTO TIENE DOS OBJETIVOS RELACIONADOS. EN PRIMER LUGAR, FABRICAR LOS MODULOS PARA EL DETECTOR DE TRAZAS DE AFP. Y EN SEGUNDO LUGAR, DESARROLLAR NUEVAS TECNOLOGIAS DE PIXEL QUE ASEGUREN UN PAPEL DE LIDERAZGO DEL IFAE Y DEL IMB-CNM EN LAS FUTURAS ACTUALIZACIONES DE ATLAS PARA EL PERIODO DEL HL-LHC. (Spanish)
    0 references
    THE LHC DATA COLLECTION PERIOD BETWEEN 2009 AND 2012 WAS A SUCCESS; EXPERIMENTS MADE EXCEPTIONAL MEASUREMENTS, SUCH AS THE RECENT DISCOVERY OF A HIGGS BOSON. TO FURTHER INVESTIGATE THE ENERGETIC BORDER, THE LHC HAS BEEN RECENTLY IMPROVED TO INCREASE THE ENERGY OF THE CENTER OF MASS FROM 8 TEV TO 14 TEV. LATER, IN 2022, INSTANTANEOUS LUMINOSITY WILL INCREASE BY A FACTOR TEN (HL-LHC). With the end of FRESENT TO THE BIGHEST luminosities, ATLAS will also improve YOUR INTERNAL DETECTOR (ID) by replacing the current ID with an INTEGRATED SILICY DETECTOR (LAMING ITK)._x000D_ _x000D_ The ATLAS ID NUCLEO IS THE pixel detector, that desempresses a key pad in many measures, and which sensibly improves the resolution of the immaculate parametro, and therefore, the reconstruction of vertices and B-tagging. ESPECIALLY IMPORTANT IS THE INNERMOST LAYER, WHICH HAS TO WITHSTAND THE HIGHEST DOSES OF RADIATION. DURING THE RECENT LHC UPGRADE PERIOD, AND TO FURTHER IMPROVE THE PERFORMANCE OF THE SILICON SYSTEM, ATLAS HAS INTRODUCED AN ADDITIONAL PIXEL LAYER (CALLED B-LAYER OR IBL) INTO THE PIXEL DETECTOR. THE IBL, MOUNTED DIRECTLY ON THE NEW BEAM TUBE, IS DESIGNED TO WITHSTAND A NIEL DOSE OF 5E15NEQ/CM2. AFTER AN EXTENSIVE QUALIFICATION PERIOD (2011-2013) TWO TECHNOLOGIES WERE SELECTED FOR THE IBL: FLATTER SENSORS AND 3D SENSORS. MORE THAN HALF OF THE 3D SENSORS THAT ARE NOW BEING OPERATED IN THE IBL WERE PRODUCED AT THE IMB-CNM. _x000D_ _x000D_ as a CONSEQUENCY OF THE IBL 3D SENSORS EXIT, A NEW EXPERIMENT OF ATLAS DESIGNED TO STUDY THE FISIC difractive (ATLAS FORWARD protons or AFP) has selected 3D sensors for the tracing system. THE CURRENT DESIGN OF THE AFP PROVIDES SILICON SENSORS LOCATED 210 M FROM THE POINT OF INTERACTION AND 2-3 MM FROM THE PROTON BEAM. THE IFAE GROUP HAS LED THE QUALIFICATION OF CNM’S 3D SENSORS FOR AFP, AND HAS PLAYED A LEADING ROLE IN THE WORK THAT LED TO THE APPROVAL OF AFP FOR THE ATLAS COLLABORATION IN JUNE 2015. The AFP TRACES SYSTEM IS NOW INSTITUCTIONAL RESPONSIBILITY OF IFAE._x000D_ _x000D_ 3D TECHNOLOGY AND MUST BE MORE ADECTED FOR THE INTERNAL CAPS OF the pixel detector, without embarrassment, given the RADIATION DOSIS WITHOUT PRECEDENTS that are expected for HL-LHC, new improvements will be needed, as well as the redirection of the material and the pixel size. THE ITK SCHEDULE FORESEES FINALISING THE TECHNICAL DESIGN REPORT (TDR) IN 2017. FOR THIS REASON IT IS CRITICAL TO QUALIFY 3D TECHNOLOGY IN THE NEXT FEW YEARS. The IMB-CNM and IFAE are designed to manufacture, assemble and characterise 3D DISPOSITIVES to consolide this technology as an opportunity for the internal layers of the ITK Detector._x000D_ _x000D_ THE PROJECT had two connected OBJECTIVES. FIRST, MANUFACTURE THE MODULES FOR THE AFP TRACE DETECTOR. AND SECONDLY, TO DEVELOP NEW PIXEL TECHNOLOGIES THAT WILL ENSURE A LEADING ROLE FOR IFAE AND IMB-CNM IN FUTURE UPDATES OF ATLAS FOR THE HL-LHC PERIOD. (English)
    point in time
    13 October 2021
    0 references
    location (string)
    Sant Julià de Cerdanyola
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    Identifiers

    Spanish Kohesio ID
    FPA2015-69260-C3-2-R
    0 references
     
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